CO2 emissions, energy consumption and economic growth in China: A panel data analysis SS Wang, DQ Zhou, P Zhou, QW Wang Energy policy 39 (9), 4870-4875, 2011 | 1009 | 2011 |
Energy efficiency and production technology heterogeneity in China: A meta-frontier DEA approach Q Wang, Z Zhao, P Zhou, D Zhou Economic Modelling 35, 283-289, 2013 | 363 | 2013 |
Different types of environmental regulations and the heterogeneous influence on the environmental total factor productivity: empirical analysis of China's industry N Shen, H Liao, R Deng, Q Wang Journal of Cleaner Production 211, 171-184, 2019 | 311 | 2019 |
How information and communication technology drives carbon emissions: A sector-level analysis for China X Zhou, D Zhou, Q Wang, B Su Energy Economics 81, 380-392, 2019 | 297 | 2019 |
Can environmental regulation directly promote green innovation behavior?——based on situation of industrial agglomeration H Peng, N Shen, H Ying, Q Wang Journal of Cleaner Production 314, 128044, 2021 | 286 | 2021 |
我国二氧化碳排放绩效的动态变化, 区域差异及影响因素 王群伟, 周鹏, 周德群 中国工业经济 1 (1), 45-54, 2010 | 249* | 2010 |
How does emission trading reduce China's carbon intensity? An exploration using a decomposition and difference-in-differences approach B Zhou, C Zhang, H Song, Q Wang Science of the total environment 676, 514-523, 2019 | 243 | 2019 |
A review of carbon labeling: Standards, implementation, and impact T Liu, Q Wang, B Su Renewable and Sustainable Energy Reviews 53, 68-79, 2016 | 236 | 2016 |
A hybrid model for carbon price forecasting using GARCH and long short-term memory network Y Huang, X Dai, Q Wang, D Zhou Applied Energy 285, 116485, 2021 | 218 | 2021 |
Efficiency measurement with carbon dioxide emissions: the case of China Q Wang, P Zhou, D Zhou Applied Energy 90 (1), 161-166, 2012 | 208 | 2012 |
Two-stage innovation efficiency of new energy enterprises in China: A non-radial DEA approach Q Wang, Y Hang, L Sun, Z Zhao Technological Forecasting and Social Change 112, 254-261, 2016 | 194 | 2016 |
Contributions to sector-level carbon intensity change: an integrated decomposition analysis Q Wang, Y Hang, B Su, P Zhou Energy Economics 70, 12-25, 2018 | 189 | 2018 |
Driving factors behind carbon dioxide emissions in China: A modified production-theoretical decomposition analysis Q Wang, YH Chiu, CR Chiu Energy Economics 51, 252-260, 2015 | 185 | 2015 |
Measurement and decomposition of energy-saving and emissions reduction performance in Chinese cities Q Wang, B Su, J Sun, P Zhou, D Zhou Applied Energy 151, 85-92, 2015 | 175 | 2015 |
How does information and communication technology affect China's energy intensity? A three-tier structural decomposition analysis X Zhou, D Zhou, Q Wang Energy 151, 748-759, 2018 | 169 | 2018 |
Uncertainty factors, methods, and solutions of closed-loop supply chain—A review for current situation and future prospects H Peng, N Shen, H Liao, H Xue, Q Wang Journal of Cleaner Production 254, 120032, 2020 | 166 | 2020 |
Have Chinese cities achieved the win–win between environmental protection and economic development? From the perspective of environmental efficiency Q Wang, Z Zhao, N Shen, T Liu Ecological Indicators 51, 151-158, 2015 | 153 | 2015 |
Measuring carbon dioxide emission performance in Chinese provinces: a parametric approach QW Wang, P Zhou, N Shen, SS Wang Renewable and Sustainable Energy Reviews 21, 324-330, 2013 | 138 | 2013 |
Waste cooking oil as an energy resource: Review of Chinese policies H Zhang, Q Wang, SR Mortimer Renewable and sustainable energy reviews 16 (7), 5225-5231, 2012 | 134 | 2012 |
Factors influencing the progress in decoupling economic growth from carbon dioxide emissions in China’s manufacturing industry Y Hang, Q Wang, D Zhou, L Zhang Resources, Conservation and Recycling 146, 77-88, 2019 | 129 | 2019 |